electric force, field, potential, and energy
... • the work that must be performed against gravitational forces to move an object from a reference point to the point in question, divided by the mass of the object ...
... • the work that must be performed against gravitational forces to move an object from a reference point to the point in question, divided by the mass of the object ...
June 2008 - Vicphysics
... To assist students, when using this exam paper for revision purposes, listed below are the dot points from the 2008 course that were not covered in the paper. : Motion is one and two dimensions • explain movement in terms of the Newtonian model and assumptions including – the absolute nature of spa ...
... To assist students, when using this exam paper for revision purposes, listed below are the dot points from the 2008 course that were not covered in the paper. : Motion is one and two dimensions • explain movement in terms of the Newtonian model and assumptions including – the absolute nature of spa ...
PH 201-4A spring 2007 PH 201 4A spring 2007
... • To stretch or compress a spring a force F must be applied • Newton’s 3rd Law: Every action has an equal in magnitude and opposite reaction. The reaction force that is applied by the spring to the agent that does the pulling or pushing is called restoring force ...
... • To stretch or compress a spring a force F must be applied • Newton’s 3rd Law: Every action has an equal in magnitude and opposite reaction. The reaction force that is applied by the spring to the agent that does the pulling or pushing is called restoring force ...
Magnetic field lines
... When the force due to the electric field is equal but opposite to the force due to the magnetic field, the particle moves in a straight line This occurs for velocities of value v = E / B Only those particles with the given speed will pass through the two fields undeflected The magnetic force exerted ...
... When the force due to the electric field is equal but opposite to the force due to the magnetic field, the particle moves in a straight line This occurs for velocities of value v = E / B Only those particles with the given speed will pass through the two fields undeflected The magnetic force exerted ...
AP® Physics 1 Syllabus
... standing waves in a string. In the first part of the lab, the medium will remain constant (constant string tension and length) while frequency is varied to identify the fundamental frequency and several harmonics. In the second phase of the lab, the tension will be varied to access the effect on fre ...
... standing waves in a string. In the first part of the lab, the medium will remain constant (constant string tension and length) while frequency is varied to identify the fundamental frequency and several harmonics. In the second phase of the lab, the tension will be varied to access the effect on fre ...
Chapter 7
... Any object bound to another by an inverse square law will move in an elliptical path Second focus is empty ...
... Any object bound to another by an inverse square law will move in an elliptical path Second focus is empty ...
Newton`s laws of motion - UCI Physics and Astronomy
... When is Newton’s first law valid? • In Figure 4.11 no net force acts on the rider, so the rider maintains a constant velocity. But as seen in the noninertial frame of the accelerating vehicle, it appears that the rider is being pushed. • Newton’s first law is valid only in non-accelerating inertial ...
... When is Newton’s first law valid? • In Figure 4.11 no net force acts on the rider, so the rider maintains a constant velocity. But as seen in the noninertial frame of the accelerating vehicle, it appears that the rider is being pushed. • Newton’s first law is valid only in non-accelerating inertial ...
Physics 202, Lecture 4 Gauss`s Law: Review
... Often called potential V, but meaningful only as potential difference Customary to choose reference point V=0 at r = ∞ (OK for localized charge distribution) ...
... Often called potential V, but meaningful only as potential difference Customary to choose reference point V=0 at r = ∞ (OK for localized charge distribution) ...
Midterm Exam 3
... 1. This examination is closed book and closed notes. All your belongings except a pen or pencil and a calculator should be put away and your bookbag should be placed on the floor. 2. You will find one page of useful formulae on the last page of the exam. 3. Please show all your work in the space pro ...
... 1. This examination is closed book and closed notes. All your belongings except a pen or pencil and a calculator should be put away and your bookbag should be placed on the floor. 2. You will find one page of useful formulae on the last page of the exam. 3. Please show all your work in the space pro ...
Chapter 20 Magnetic Forces and Magnetic Fields
... Since the magnetic force always remains perpendicular to the velocity, if a charged particle moves perpendicular to a uniform B-field its path will be circular. The magnitude of the force remains constant and it is directed toward the center of the circular path, i.e. it is the centripetal force for ...
... Since the magnetic force always remains perpendicular to the velocity, if a charged particle moves perpendicular to a uniform B-field its path will be circular. The magnitude of the force remains constant and it is directed toward the center of the circular path, i.e. it is the centripetal force for ...
physics - Regents
... between two point charges, q1 and q2. If the distance between the charges is doubled, the new electrical force between the charges will be (1) 1.6 × 10−4 N (3) 3.2 × 10−4 N ...
... between two point charges, q1 and q2. If the distance between the charges is doubled, the new electrical force between the charges will be (1) 1.6 × 10−4 N (3) 3.2 × 10−4 N ...
3.2 Vector Addition and Subtraction
... • A hockey player hits a “slap shot” in practice (with no goalie present) when he is 15.0 m directly in front of the net. The net is 1.20 m high, and the puck is initially hit an angle of 5.00 degree above the ice with a speed of 35.0 m/s. • A.) Determine whether the puck makes it into the net. ...
... • A hockey player hits a “slap shot” in practice (with no goalie present) when he is 15.0 m directly in front of the net. The net is 1.20 m high, and the puck is initially hit an angle of 5.00 degree above the ice with a speed of 35.0 m/s. • A.) Determine whether the puck makes it into the net. ...
